Röttger, J.; Liu, C. H.: Partial reflection and scattering of VHF radar signals from the clear atmosphere. Geophysical Research Letters 5, pp. 357 - 360 (1978)
Röttger, J.; Vincent, R. A.: VHF radar studies of tropospheric velocities and irregularities using spaced antenna techniques. Geophysical Research Letters 5, pp. 917 - 920 (1978)
Röttger, J.: Travelling disturbances in the equatorial ionosphere and thier association with penetrative cumulus convection. Journal of Atmospheric and Terrestrial Physics 39, pp. 987 - 998 (1977)
Röttger, J.; Czechowsky, P.: Clear-air-turbulence and tropospheric refractivity variations observed with a new VHF-radar. Naturwissenschaften 64, p. 580 (1977)
Klostermeyer, J.; Röttger, J.: Simultaneous geomagnetic and ionospheric oscillations caused by hydromagnetic waves. Planetary and Space Science 24, pp. 1065 - 1071 (1976)
Carman, E. H.; Heeran, M. P.; Röttger, J.: Simultaneous observation of fading rates on two transequatorial radio paths. Australian J. Phys. 27, pp. 741 - 744 (1974)
Röttger, J.; Schwentek, H.: A numerical description of the winter anomaly in ionospheric absorption for a sunspot cycle. Journal of Atmospheric and Terrestrial Physics 36, pp. 363 - 366 (1974)
Kelleher, R. F.; Röttger, J.: Equatorial spread-F irregularities observed at Nairobi and on the transequatorial path Lindau-Tsumeb. Journal of Atmospheric and Terrestrial Physics 35, pp. 1207 - 1211 (1973)
Röttger, J.: Some properties of large-scale equatorial spread-F irregularities interpreted by influences of atmospheric gravity waves. Zeitschrift Geophys. 39, pp. 799 - 818 (1973)
Schödel, J. P.; Klostermeyer, J.; Röttger, J.: Atmospheric Gravity Wave Observations after the Solar Eclipse of June 30, 1973. Nature 245, pp. 87 - 88 (1973)
Images from ESA’s Solar Orbiter offer the best look yet at a source region of the solar wind - and challenge our view of the continuous particle stream from the Sun.
Deciphering the magnetic origins of the Sun's hot corona: developing a framework for coronal heating by probing the elusive photosphere-corona connection
Using unique observational data and computer simulations, the MPS scientist is striving to understand the incredibly hot temperatures in the solar corona.
For the first time, images of the Sun have been taken from a distance of only 77 million kilometres enabling a completely new view of our star possible.
In his doctoral thesis, Sudip Mandal investigated how special pressure waves help maintain temperatures of several million degrees in the outermost solar atmosphere.